Difference between revisions of "Team:Glasgow"
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<h1 style="border:none;font-family: Arial, sans-serif;text-align:center;"><strong>Project preview</strong></h1> | <h1 style="border:none;font-family: Arial, sans-serif;text-align:center;"><strong>Project preview</strong></h1> | ||
<h2 style="border:none;font-family: Arial, sans-serif;text-align:center;"><strong>Engineering Glow in the Dark Biology</strong></h1> | <h2 style="border:none;font-family: Arial, sans-serif;text-align:center;"><strong>Engineering Glow in the Dark Biology</strong></h1> | ||
− | <p style="font-family: Arial, sans-serif;margin-left:120px;margin-right:120px;text-indent:20px;line-height:40px;"><font size='5'>Our project is centered on using bioluminescence as a light source in <i>Escherichia coli</i>. After brainstorming with a designer, we decided to make | + | <p style="font-family: Arial, sans-serif;margin-left:120px;margin-right:120px;text-indent:20px;line-height:40px;"><font size='5'>Our project is centered on using bioluminescence as a light source in <i>Escherichia coli</i>. After brainstorming with a designer, we decided to make nightlights for children. We believe this would be a good way to get the public talking about synthetic biology, and to ignite a passionate interest for science and synthetic biology in children. To make the nightlight more interactive, we decided that the children should care for the monster-styled nightlight during the day, so it will glow at night, protecting them from any bedtime monsters. To turn off the <i>Aliivibrio fischeri</i> bioluminescence lux operon during the day, we are using a UVA light sensor system from <i>Synechocystis</i> sp. PCC6803, and an inverter based on TetR family repressors from <i>Pseudomonas</i>. We are refactoring the lux operon for optimal performance using BioBrick assembly and a ribosome binding site library for each gene in the operon.</font></p> |
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Revision as of 05:25, 17 September 2015
University of Glasgow
Project preview
Engineering Glow in the Dark Biology
Our project is centered on using bioluminescence as a light source in Escherichia coli. After brainstorming with a designer, we decided to make nightlights for children. We believe this would be a good way to get the public talking about synthetic biology, and to ignite a passionate interest for science and synthetic biology in children. To make the nightlight more interactive, we decided that the children should care for the monster-styled nightlight during the day, so it will glow at night, protecting them from any bedtime monsters. To turn off the Aliivibrio fischeri bioluminescence lux operon during the day, we are using a UVA light sensor system from Synechocystis sp. PCC6803, and an inverter based on TetR family repressors from Pseudomonas. We are refactoring the lux operon for optimal performance using BioBrick assembly and a ribosome binding site library for each gene in the operon.